Impact of biophysical parameters on the biological assessment of peptide nucleic acids, antisense inhibitors of gene expression

Abstract

AbstractPeptide nucleic acids (PNA) are oligodeoxynucleotide (ODN) analogs in which the sugar phosphate backbone of the ODN has been replaced by one derived from units of N‐ethylaminoglycine. PNAs recognize DNA and RNA in a sequence specific manner and form complexes that can be characterized by biophysical methods. The binding motif is context dependent; homopyrimidine PNAs combine with complementary polypurine targets to form stoichiometric 2:1 complexes, whereas PNAs containing both purine and pyrimidine bases afford a 1:1 heteroduplex with mis‐match sensitivity comparable to that found in dsDNA. These complexes mediate the antigene and antisense effects of PNAs via the steric blockade of enzyme complexes responsible for DNA transcription, cDNA synthesis, and RNA translation. PNAs, like ODNs, are taken up by cells via endocytosis leading to their entrapment within intracytoplasmic vesicles. Under circumstances where agent delivery is solved by cell microinjection, PNAs can effect selective inhibition of endogenous and exogenous genes. The impact of biophysical parameters on the biological assessment of PNAs as antisense inhibitors of gene expression is presented and discussed. © 1995 Wiley‐Liss, Inc.